To answer this question you need to use the formula W=m*g. W is weight, m is mass(kg), and g is gravity. In normal physics gravity is 10 but to be more precise its 9.8. When you plug all the numbers in, and in your case, we get W=45*9.8. So the weight would be 441N. N is the symbol for Newtons, the unit of force.
The weight of a 45.00 KG object is still 45.00 KG.
441 N
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An object that weighs 45.32 N on earth has 4.624 kg of mass. (rounded)
It is the force of gravity divided by the weight of the object, written as M=N/9.81, where M is the mass and w is the weight of the object in Newtons.
mass is the amount of matter in an object. mass remains unaffected by gravity. weight is a measure of a gravitational pull on n object and is there for affected by gravity.
On Earth, 25 kg of mass weighs 245.2 Newtons (55.12 pounds). It's weight is different on other planets.
mass is how much weight an object has so mass (N) measures how much weight (G) an object has
a mass in a math is the weight in n object
Your mass is always the same.
An object that weighs 45.32 N on earth has 4.624 kg of mass. (rounded)
It is the force of gravity divided by the weight of the object, written as M=N/9.81, where M is the mass and w is the weight of the object in Newtons.
An object that weighs 490 N on earth has a mass of 50 kilograms. In other places (on the moon, in space, etc.), the same object would have the same mass but different weight.
mass is the amount of matter in an object. mass remains unaffected by gravity. weight is a measure of a gravitational pull on n object and is there for affected by gravity.
Weight = (mass) x (gravity)Mass = (weight) / (gravity) = (39.2 N) / (9.8 m/sec2) = 4 kilograms
On Earth, 25 kg of mass weighs 245.2 Newtons (55.12 pounds). It's weight is different on other planets.
Mass is the amount of matter in an object and remains constant regardless of the gravitational force acting on it. Weight, on the other hand, is the force exerted on an object due to gravity and can vary depending on the strength of the gravitational field.
On Earth it is 8 x 9.8 = 78.4 N. As Weight=Mass x Gravity
To support an object with a mass of 5 kg, you need to support it with a force equal to its weight. 30 N won't be enough in this case.
The weight of an object is always determined by multiplying the mass of the object, in kg, by the gravitational field strength it is subject to, in N kg-1. This gives the weight in Newtons, N. On Earth, the gravitational field strength is often approximated to 9.8 N kg-1 (which can also be given the units ms-2). An object of mass 0.5kg would therefore have a weight (on Earth) of: 0.5kg x 9.8N kg-1 = 4.9N